Provided are concepts for controlling a high flow nasal therapy (HFNT) device used by a subject. In particular, physiological and movement parameter values of the subject are leveraged in order to generate a control signal for the HFNT device. These parameters may indicate an activity level of the subject, as well as the condition of the subject, providing information useful for setting appropriate operating conditions of the HFNT device. Thus, a means for automatically controlling a HFNT device based on needs of the subject may be provided, improving subject comfort during therapy, and ease of use of the HFT device.

The present system discloses a data acquisition server for monitoring sensor data on a patient, the server controlling a plurality of sensors, each comprising a data acquisition circuit for measuring data on the patient, the server being operable to receive selection of a first sensor for capturing a first data on a patient, retrieve in a sensor database controlled by the data acquisition server a first mapping rule associated to the first sensor, the first mapping rule defining among the plurality of sensors a subset of secondary sensors linked to the first sensor, a sensor being a secondary sensor to the first sensor when measuring a type of data that characterizes the context of measurement by the first sensor, controlling the data acquisition circuit of the first sensor to capture first data, controlling the data acquisition circuit of each secondary sensors from the subset of sensors, to capture secondary data, retrieve in the sensor database a first rendering rule associated to the first sensor, the first rendering rule defining rules to process the second data prior to rendering, rendering on a user interface controlled by the data acquisition server the captured first data and the second data based on the first rendering rule.

A patient support apparatus, such as a bed, cot, stretcher, or the like, includes a frame, a support surface, an emitter, a detector, and a controller. The emitter and detector are coupled to the patient support apparatus at first and second locations, respectively. The emitter is adapted to emit electromagnetic waves in a direction aimed toward the detector. The detector is adapted to detect the electromagnetic waves emitted from the emitter. The controller is adapted to perform a spectral analysis of the detected electromagnetic waves to determine a parameter associated with the gas exhaled by a patient positioned on the patient support apparatus. The parameter may refer to a carbon dioxide level of gas exhaled by the patient, the patient's respiration rate, the patient's metabolic rate, or the like. The emitter, detector, and controller may alternatively be separate from, but attachable to, and in communication with, the patient support apparatus.

Provided is a server for determining whether medication has been administered, the server including: a transceiver receiving a video recorded by a wearable device; a memory storing a detection model and a confirmation model, wherein the detection model is trained to output whether each of preset targets appears in an image, and the confirmation model is trained to output whether medication has been administered, wherein the preset targets include an object related to a medicine or a medicine container and a posture related to medication administration; and one or more processors configured to detect the preset targets by inputting image frames of the video to the detection model and to determine whether medication has been administered by inputting confirmation model input data to the confirmation model, the confirmation model input data generated based on a detection result of the detection model.

An alarm application is described. A user interface of the alarm application may be presented that includes a generic alarm option and a sleep alarm option. A first view of the user interface may be presented that includes generic alarm related options when the generic alarm option is selected. A second view of the user interface may be presented that includes sleep alarm related options when the sleep alarm option is selected.

Medication management and reporting technology, in which output from at least one sensor configured to sense physical activity in a building in which medication of a patient is located is monitored and a determination is made to capture one or more images of the medication based on the monitoring. A camera is used to capture an image of the medication and the captured image is analyzed to detect a state of the medication. Information regarding a schedule by which the medication should be taken by the patient is accessed and an expected state of the medication is determined. The detected state is compared with the expected state and a determination is made that the patient has departed from the schedule based on the comparison revealing that the detected state does not match the expected state. A message indicating the departure from the schedule is sent based on the determination.

A system is described to create customized unique identification (UID) codes combined with customized printable optical or NFC sensors and to combine these unique sensors and unique IDs with unique environmental events, traceability, unique data from cell phones (including geolocation) and person-specific unique indicators such as biomarkers to create completely unique, low cost and proprietary printable genomic and environmental blockchain sensor networks for the Internet of Things (IoT), counterfeit identification, healthcare, pharmaceutical applications and small payment transactions worldwide.

To detect at least either of the states of an attachment target and a surrounding environment without any time restriction. Provided is an information processing device including: a power generation signal acquisition unit configured to acquire a power generation signal based on power generation by at least one power generation device; and a determination unit configured to determine at least either of states of an environment surrounding the power generation device and an attachment target to which the power generation device is attached, on the basis of the power generation signal.

In some implementations, a mobile device can adjust an alarm setting based on the sleep onset latency duration detected for a user of the mobile device. For example, sleep onset latency can be the amount of time it takes for the user to fall asleep after the user attempts to go to sleep (e.g., goes to bed). The mobile device can determine when the user intends or attempts to go to sleep based on detected sleep ritual activities. Sleep ritual activities can include those activities a user performs in preparation for sleep. The mobile device can determine when the user is asleep based on detected sleep signals (e.g., biometric data, sounds, etc.). In some implementations, the mobile device can determine recurring patterns of long or short sleep onset latency and present suggestions that might help the user sleep better or feel more rested.

In some embodiments, the present invention provides an exemplary inventive system that includes: an apparatus to record: individual's brain electrical activity, a physiological parameter of the individual, and iii) an environmental parameter; a computer processor configured to perform: obtaining a recording of the electrical signal data; projecting the obtained recording of electrical signal data onto a pre-determined ordering of a denoised optimal set wavelet packet atoms to obtain a set of projections; normalizing the particular set of projections of the individual using a pre-determined set of normalization factors to form a set of normalized projections; determining a personalized mental state of the individual by assigning a brain state; determining a relationship between: the physiological parameter, the environmental parameter, and the personalized mental state; generating an output, including: a visual indication, representative of the personalized mental state, and) a feedback output configured to affect the personalized mental state of the individual.